Take-up tube transporting apparatus

ABSTRACT

A take-up tube transporting apparatus comprises tray transporting line which circulate endlesswise in two upper and lower stages between a winder and a preparation machine for replacing conical take-up tubes ejected from a textile machine with spinning bobbins to send the latter to the textile machine, a take-up tube mounting device for supplying the conical take-up tubes ejected from the preparation machine to empty trays which circulates along the tray transporting lines, and a take-up tubes supplying device for removing the conical take-up tubes from the take-up tube mounting trays delivered from the take-up tube supplying device to the tray transporting lines to supply the conical take-up tubes toward a winder.

BACKGROUND OF THE INVENTION

1. Field of the Invention

This invention relates to a take-up tube transporting apparatus, andparticularly to a transporting apparatus for conical take-up tubes froma textile machine such as a double twister toward a winder.

2. Prior Art

In supplying conical take-up tubes discharged from a double twister to awinder, in the past, a predetermined number of conical take-up tubesdischarged from the double twister are collectively placed on a carrier,which is manually carried to the winder.

The conventional carrying of conical take-up tubes from the doubletwister to the winder is labor-taking, and is difficult to manage orcontrol timing or the like.

An object of this invention is to provide an apparatus capable ofcompletely automating the carrying of take-up tubes from the doubletwister or the like to the winder.

For achieving the aforesaid object, this invention provides a take-uptube transporting apparatus comprising: tray transporting line whichcirculate endlesswise in two upper and lower stages between a winder anda preparation machine for replacing conical take-up tubes ejected from atextile machine with spinning bobbins to send the latter to said textilemachine, a take-up tube mounting device for supplying the conicaltake-up tubes ejected from the preparation machine to empty trays whichcirculate along the tray transporting lines, and a take-up tubesupplying device for removing the conical take-up tubes from the take-uptube mounting trays delivered from the take-up tube supplying device tothe tray transporting lines to supply said conical take-up tubes towarda winder.

In the take-up tube transporting apparatus constructed as describedabove, in the take-up tube mounting device, the conical take-up tubesdischarged from the preparation machine are supplied to the empty trayswhich circulate along the tray transporting lines, the trays withtake-up tubes are transported to the take-up tube supplying device bythe tray transporting lines, and the conical take-up tubes are removedthereat and supplied toward the stand-by winder.

On the other hand, the trays circulate along the tray transporting linesand are transported to the take-up tube mounting device.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows a schematic arrangement of a take-up tube transportingapparatus according to this invention;

FIG. 2 is a perspective view of a take-up tube mounting device;

FIG. 3 is a perspective view of a feed member for moving forward trays;

FIG. 4 is a perspective view of a mechanism for distributing trays withtake-up tubes delivered from the take-up tube mounting device into twolines;

FIG. 5 is a perspective view of a take-up tube supplying device;

FIG. 6 is a sectional view of a tray for mounting a conical take-uptube;

FIG. 7 is a perspective view of a bobbin conveyor according to anotherembodiment of this invention; and

FIG. 8 shows an arrangement of a conventional bobbin conveyor.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

An embodiment of the take-up tube transporting apparatus according tothis invention will be described hereinafter with reference to FIGS. 1to 6.

This apparatus comprises tray transporting lines (hereinafter merelyreferred to as "lines") LA and LB, a take-up tube mounting device 100and a take-up tube supplying device 200.

First, this apparatus will be briefly described with reference to FIG.1.

A plurality of spinning frames S and the same number of automaticwinders W are installed in order from the right side in the figure, anda plurality of double twisters DT and four preparation machines P areinstalled in order from the top on the left side in the figure.

The automatic winders W are divided into three groups. The upper windergroup handles yarns of kind A, the lower winder group handles yarns ofkind B, and the intermediate winder group can be used while beingswitched for use with the yarns of kind A or for use with the yarns ofkind B, as necessary. The spinning frames S corresponding thereto arealso divided into three groups.

Two lines LA and LB are passed over between the automatic winders W andthe preparation machines P.

The lines LA and LB run in two upper and lower stages, the upper stagemoving toward the winders W while the lower stage moving toward thepreparation machines P, comprising one set of two round belts connectedendless-wise as a whole.

The preparation machine P is an apparatus which removes take-up tubes intwo stages discharged out of the double twister DT from their trays andreplaces them with spinning bobbins sent from the automatic winder W bya line in a separate system not shown in FIG. 1.

On the right side of each preparation machine P is provided a line LDwhich is connected to a line LA (the left line LD being connected to aline LB on the outlet side). In the vicinity of the bended portion ofthe line LD is installed a take-up tube mounting device 100 forsupplying take-up tubes to empty trays which circulate along the line LAor line LB.

On the left end of each winder W is installed a take-up tube supplyingdevice 200 which removes take-up tubes from trays with take-up tubesdelivered from the take-up tube supplying device 100 to the line LA orline LB to supply them to a stand-by autodoffer.

A bypass line LC is provided between the lines of each of saidintermediate winders W capable of switching the yarns of kind A to thatof kind B and vice versa and each of the preparation machines P exceptone on the left end. The bypass line LC this side of the winder W isprovided to switch a tray with a take-up tube for yarns of kind A fromthe line LA to the line LB as necessary to supply a take-up tube. Thebypass line LC this side of the preparation machine P is provided todistribute a tray with a take-up tube discharged from the line LA to theline LB according to the kind of yarns. These switching of the lines anddistribution of trays are accomplished by a movable separator describedlater.

Reference character I which are present in the line LA and line LBrepresents a receiving lever which temporarily stops a tray and thenreleases the tray upon demand of reception issued by the autodofferwaited for on the left side of the winder or the preparation machine P.In the embodiment as shown in FIG. 1, there are some spaces for storingtrays between the winder W and the preparation machine P.

Next, the take-up tube mounting device 100 provided in the vicinity ofthe bended portion of the line LD on the right side of the preparationmachine P will be described with reference to FIGS. 2 to 4.

The take-up tube mounting device 100 is to supply conical take-up tubesB to empty trays T which are discharged from the take-up tube supplyingdevice 200 and circulate along the lower line LA or line LB. An exampleof receiving empty trays T from the line LA will be described but thesame is true for the case where the empty trays are received from theline LB.

A number of empty trays T received from the line LA are lined up on theinlet side of the line LD.

On the underside of the line LD is installed a feed member 1 which issupported slidably on a guide rod 4 and intermittently reciprocated byan air cylinder 3 or the like (see FIG. 3). The feed member 1 isprovided with a feed pawl 2 so that the trays T lined up on the line LDare intermittently moved forward one by one by the reciprocatingmovement of the feed member 1. When the empty tray T moves to anddirectly below the take-up tube mounting device 100, the conical take-uptube B is supplied thereto.

This take-up tube mounting device 100 consists of two round belts 101which run endlesswise and a belt conveyor 103 adjacent thereto whichruns endlesswise.

The spacing between the two round belts 101 is set to be slightly largerthan an intermediary of the size of a diameter of opposite ends of theconical take-up tube B, and the front end of the belt faces upwardly ofthe standby position of the tray T. A guide member such as a chute formaintaining an attitude of the take-up tube B which falls from the frontend of the round belt 101 may be provided between the front end of theround belt 101 and the standby position of the tray T but this is notalways required.

The belt conveyor 103 removes conical take-up tubes in two stagesdischarged from the double twisters DT from their trays and receivestake-up tubes B sent from a stripper not shown in the preparationmachine P for removing residual yarns to carry the take-up tubes B tothe end of the round belt 101.

Some of the conical take-up tubes B which are fallen from the stripperonto the belt conveyor 103 move forward with the large diameter sideahead as shown in FIG. 2 or they move reversely. In any case, when thetake-up tubes is transferred onto the two round belts 101, the take-uptube is held with the small diameter side located below between tworound belts 101. The conical take-up tube B in an inverted state iscarried to the standby position of the tray T while maintaining itsattitude and then fallen onto the tray.

The conical take-up tube B mounted on the tray T in the inverted statemoves upward along the line LD and is transferred to the upper line LAor line LB as shown in FIG. 3. This portioning-out is accomplished by amovable separator 5.

The movable separator 5 is rotatably mounted at one end thereof on theframe of the line LA by means of a shaft so that the separator 5 ismanually rotated to a position at which the line LA is closed wherebythe conical take-up tube B mounted on the tray T is guided from thebypass line LC to the line LB. The take-up tube from the line LD on theright end (left end in FIG. 1) is directly sent to the line LB.

Next, the take-up tube supplying device 200 provided this side on theleft end of each winder W will be described with reference to FIG. 5.

The take-up tube supplying device 200 removes conical take-up tubes Bfrom trays T with take-up tubes delivered from the take-up tubesupplying device 100 to the line LA or line LB to supply them to thestandby autodoffer. A description will be made on the assumption thattrays T with take-up tubes are sent by the line LA.

A sub-transporting path 202 is provided by the main transporting path201 for trays T with take-up tubes in the line LA. This sub-transportingpath 202 is branched from the main transporting path 201 in the upperline LA and merged into the main transporting path 201 in the lower lineLA, two upper and lower bended portions 202a being formed on the rightside in FIG. 5. The surface of the sub-transporting path 202 between theupper bended portion 202a and the lower bended portion 202a is twistedat right angle to other portions. The sub-transporting path 202 is showncut in FIG. 5 but actually the right portion thereof is also continuous.

A belt 204 passed over four pulleys 203 (one out of which is a drivepulley) runs along the sub-transporting path 202 whereby the trays T maybe moved.

The trays T with take-up tubes which move along the main transportingpath 201 of the upper line LA are informed of by a sensor that thesub-transporting path 202 is not filled with the trays T with take-uptubes whereby the trays T are received into the sub-transporting path202. The trays T are carried by the belt 204, and when passing thebended portion 202a, the trays T with take-up tubes are laterallydirected. At this time, the conical take-up tubes B are loosely mountedon the trays T, and therefore, a clearance is formed between the conicaltake-up tube B and the base surface of the tray T.

On the other hand, a pawl 205 with its surface inclined downwardly isprovided in the vicinity of the pulley 203 located rightward and upward,and a chute 206 for receiving take-up tubes B to deliver them to theautodoffer is provided on the underside of the pulley 203. The chute 206is formed on opposite ends thereof with cuts 206a and 206b,respectively. One cut 206a serves as a space necessary for installationof the sub-transporting path 202 while the other cut 206b serves toactuate a feed pawl 207 which is reciprocated by an air cylinder 208 orthe like.

When the tray T with a take-up tube passes the bended portion 202a to belaterally directed and reaches a position of the pawl 205, a clearanceis formed between the conical take-up tube B and the base surface of thetray T. Therefore, the pawl 205 acts on the clearance to push aside theend edge of the take-up tube B, which is then disengaged from the tray Tand falls. The empty tray T from which the take-up tube B disengagedpasses through the cut 206a toward the sub-transporting path 202 and isthen delivered to the lower main carrying path 201. The conical take-uptube B fallen on the chute 206 is urged by the reciprocating feed pawl207 and moves forward toward the autodoffer. This take-up tube supplyingdevice 200 is particularly suited for the case where less number ofwinding units for the winders W.

Needless to say, the take-up tube supplying device 200 can be applied tothe case where take-up tubes B are supplied to devices other than theautodoffer.

Next, trays T for mounting and carrying take-up tubes B will bedescribed with reference to FIG. 6.

This tray T mounts a conical take-up tube B in an inverted state. A cap7 with a collar is integrally placed on a peg 6a of a tray 6 formounting a conventional cylindrical take-up tube.

The cap 7 is necessary to have a diameter smaller than an insidediameter of a small-diameter portion of a conical take-up tube B, and alength such that even if the tray T is laterally directed, the conicaltake-up tube B is not slipped out. The extreme end of the cap 7 has aconical shape so that when a conical take-up tube B falls, it can bereceived accurately without being caught, and the cap 7 is formed at thelower portion with a collar 7a for receiving and supporting the smalldiameter portion of the conical take-up tube B. While the diameter ofthe collar 7a shown is substantially coincided with the outside diameterof the small diameter portion of the conical take-up tube B, it is to benoted that said diameter of the collar can be somewhat larger or smallerthan said diameter. This cap 7 can be made by integral molding usingplastic.

Furthermore, an anti-slip ring 8 such as a ring rubber may be providedon the extreme end of the cap 7. This is provided to prevent the conicaltake-up tube B from being slipped out due to the friction with theanti-slip ring 8 when the tray T is laterally directed. However, if thecap 7 has a sufficient length, the anti-slip ring 8 is not alwaysrequired. A round belt constituting a line is shown below the tray inFIG. 6.

Being this invention constructed as described above, there are effectsas described below.

In the tray T constructed as described above, the conical taking-up tubeB can be positively mounted without making any device about theparticular control of attitude when the conical take-up tube B is fallenin the inverted state.

The tray of the present invention can be formed by fitting a cap with acollar on a peg of a conventional tray for a cylindrical take-up tube.So, the conventional tray may be used for and applied to the take-uptube transporting apparatus of the present invention.

Furthermore, according to the present invention, the conical take-uptubes which are transported in a horizontal direction are transferredonto the two round belts being held with the small diameter side thereofand are transported in a vertical direction or upward directionmaintaining their attitude. The conical take-up tubes carried on thetrays and transported by the transporting lines are easily andautomatically disengaged from the trays and are fallen onto the chute tobe supplied to the autodoffer.

That is, the carrying of the conical take-up tubes from the textilemachine such as the double twister toward the winder can be completelyautomated without requiring any human hand, rendering management oftake-up tubes very easy.

A bobbin transporting apparatus for transporting bobbins between aspinning machine and an automatic winder will be illustratedhereinafter.

As the apparatus for transporting spinning bobbins or empty bobbinsstood upright on trays between a spinning frame and an automatic winder,apparatus as shown in FIG. 8 is known. Spinning frames S₁, S₂ . . . andwinders W₁, W₂ are connected by common main carrying paths ML. Thespinning frames S₁, S₂ . . . are provided with exclusive use carryingpaths LS₁, LS₂ . . . , and the winders W₁ and W₂ are provided withspinning bobbin supplying paths LW₁ and LW₂ and empty bobbin returnpaths LW₁ ' and LW₂ ', which are communicated with the main carryingpaths ML. Bobbin receiving portions of respective devices are providedwith selectors A₁, A₂ . . . , B₁, B₂.

In the conventional art in which the carrying paths between the spinningframes and the automatic winders are in a closed loop, this apparatus islarge-scaled, and the apparatus suited to the scale in connection withthe number of the spinning frames and automatic winders had to beprepared.

An embodiment of this invention relates to a bobbin conveyor which canbe simply installed irrespective of the number of spinning frames andautomatic winders.

The present invention provides a bobbin conveyor comprising a centerframe, length-adjustable side frames rotatably supported on oppositesides of said center frame, one of said side frames having a carryingpath for a tray with a spinning bobbin while the other having a carryingpath for a tray with an empty bobbin, and height-adjustable installingmembers on opposite ends thereof.

In the bobbin conveyor constructed as described above, even aninstallation height, an installation width and an installation spacingwith respect to textile machineries such as spinning frames, automaticwinders, etc. are different, it can be freely adjusted and installed.

In the installed state, transfer of spinning bobbins between the textilemachineries such as spinning frames, automatic winders, etc. on oppositesides are effected through the transporting paths for trays withspinning bobbins. Similarly, transfer of empty bobbins is effectedthrough the transporting paths for trays with empty bobbins.

An embodiment of a bobbin conveyor according to this invention will bedescribed with reference to FIG. 7.

This bobbin conveyor is composed of a center frame 301 and side frames302 and 303 mounted on opposite sides thereof. The side frames 302 and303 are mounted on the center frame 301 so that they can be rotatedthrough a given angle by means of a shaft not shown.

A carrying path 304 and a carrying path 305 are provided on the uppersurface of the side frame 302 an on the upper surface of the side frame303, respectively.

The carrying path 304 carries trays T with spinning bobbins BSdischarged from a transporting path LS of a spinning frame S to aspinning bobbin supplying path LW of an automatic winder W.

The transporting path 305 transports trays T with empty bobbins Bdischarged from a return path LW' of the automatic winder W to atransporting path LS of the spinning frame S.

The center frame 301 is provided with a drive pulley 306 and threedriven pulleys 307, 308 and 309, the side frame 302 is provided with adriven pulley 310, and the side frame 303 is provided with a drivenpulley 311. An endless round belt 312 is passed over between the pulleys306 to 311, and is always run by a motor which drives the drive pulley306 not shown.

The round belt 312 runs along the carrying paths 304 and 305 to carrytrays T with empty bobbins B or spinning bobbins BS mounted thereonwhich move into the transporting path 304 or 305.

Installation of the bobbin conveyor onto the automatic winder W isaccomplished by inserting a round rod 313 rotatably supported on theside frames 302 and 303 by a shaft 314 into a hole of a plate 315secured to the automatic winder, and fastening and securing a fasteningscrew 316 cross a slit 315a in communication with said hole. The heightof installation can be easily adjusted by changing a degree of insertionof the round rod 313 into the hole of the plate 315.

Installation onto the spinning frame S is also accomplished by insertinga round rod 317 rotatably supported on the side frames 302 and 303 by ashaft 318 into a hole of a plate 319 secured to the spinning frame S,and fastening and securing a fastening screw 320 cross a slit incommunication with said hole. At this time, an opening condition of theside frames 302 and 303 is adjusted while adjusting the width of thespinning frame S. Even if this opening condition is changed, tension ofthe round belt 312 can be adjusted by moving the pulley. The adjustmentof installation is similar to the side of the automatic winder W.

The side frame 303 is composed of two members 303a and 303b, the member303b being slidable with respect to the member 303a, and the spacingbetween the spinning frame S and the automatic winder W is adjusted sothat a screw 322 mounted on the member 303b can be secured to a slot 321provided in the member 303a. The same is true for the side frame 302.

Black triangle marks 321 and 322 represent a position at which a stopperis installed, where a tray T with a spinning bobbin BS or a tray T withan empty bobbin B is temporarily stopped, which is released upon demandof reception. When the presence of a room for reception of a tray T withan empty bobbin B is informed of by a sensor located at a white trianglemark 323, for example, the stopper at a position at 322 is released sothat the tray T with an empty bobbin B is sent to the carrying path 305.When there is no room for reception, the stopper is positioned in thedirection of guiding the tray T with an empty bobbin B toward theauxiliary carrying path LW".

Being this invention constructed as described above, there is an effectas mentioned below.

That is, the bobbin conveyor can be freely adjusted and simply installedeven if there is a difference in installation height, installation widthand installation spacing of the spinning frame, the automatic winder,etc. onto the textile machineries despite a simple construction andirrespective of the number of the spinning frames and automatic winders.

What is claimed is:
 1. A take-up tube transporting apparatus comprising:tray transporting lines which circulate endlesswise in two upper andlower stages between a winder and a preparation machine for replacingconical take-up tubes ejected from a textile machine with spinningbobbins to send the latter to said textile machine, a take-up tubemounting device for supplying the conical take-up tubes ejected from thepreparation machine to empty trays which circulate along the traytransporting lines, and a take-up tube supplying device for removing theconical take-up tubes from the take-up tube mounting trays deliveredfrom the take-up tube supplying device to the tray transporting lines tosupply said conical take-up tubes toward a winder.
 2. The take-up tubetransporting apparatus as claimed in claim 1, wherein said tray has apeg erected thereon, which has a diameter smaller than an insidediameter of a small-diameter portion of a conical take-up tube and alength such that the conical take-up tube is not slipped out even if thetray is laterally directed, and is provided with a collar for supportinga small diameter portion of a conical take-up tube, formed at a lowerportion thereof, an extreme end of said peg having a conical shape. 3.The take-up tube transporting apparatus as claimed in claim 1, whereinsaid take-up tube mounting device comprises two round belts which runendlesswise, spacing between said two round belts being set to beslightly larger than an intermediary of the size of a diameter ofopposite ends of the conical take-up tube, and the front end of said tworound belts facing upwardly of the standby position of the tray which iscirculated along the tray transporting line.
 4. The take-up tubetransporting apparatus as claimed in claim 3, wherein said take-up tubemounting device is installed adjacent to a belt conveyor which runs inhorizontal direction, and acts to be an advancing direction invertingdevice for a conical take-up tube which is moved forward with the largediameter side ahead or is moved reversely on the belt conveyor.
 5. Thetake-up tube transporting apparatus as claimed in claim 1, wherein saidtake-up tube supplying device comprises a sub-transporting path which isbranched from a main transporting path in the upper transporting lineand merged into another main transporting path in the lower transportingline, and of which surface is twisted at right angle to other portionsmidway between the two lines, a belt which runs along thesub-transporting path and whereby the tray may be moved, and a pawlwhich acts to push aside the end edge of a take-up tube carried on atray moved to the sub-transporting path and being laterally directed,and acts to fall the take-up tube, on a chute.